Biased signalling and proteinase‐activated receptors (PARs): targeting inflammatory disease

Although it has been known since the 1960s that trypsin and chymotrypsin can mimic hormone action in tissues, it took until the 1990s to discover that serine proteinases can regulate cells by cleaving and activating a unique four‐member family of GPCRs known as proteinase‐activated receptors (PARs)....

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Veröffentlicht in:	British journal of pharmacology 2014-03, Vol.171 (5), p.1180-1194
Hauptverfasser:	Hollenberg, M D, Mihara, K, Polley, D, Suen, J Y, Han, A, Fairlie, D P, Ramachandran, R
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Sprache:	eng
Schlagworte:	activated protein‐C Animals biased signalling GPCR Humans Inflammation - drug therapy Ligands protease proteinase‐activated receptor Receptors, Proteinase-Activated - antagonists & inhibitors Receptors, Proteinase-Activated - metabolism Signal Transduction Themed Section: Molecular Pharmacology of Gpcrs thrombin
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description	Although it has been known since the 1960s that trypsin and chymotrypsin can mimic hormone action in tissues, it took until the 1990s to discover that serine proteinases can regulate cells by cleaving and activating a unique four‐member family of GPCRs known as proteinase‐activated receptors (PARs). PAR activation involves the proteolytic exposure of its N‐terminal receptor sequence that folds back to function as a ‘tethered’ receptor‐activating ligand (TL). A key N‐terminal arginine in each of PARs 1 to 4 has been singled out as a target for cleavage by thrombin (PARs 1, 3 and 4), trypsin (PARs 2 and 4) or other proteases to unmask the TL that activates signalling via Gq, Gi or G12/13. Similarly, synthetic receptor‐activating peptides, corresponding to the exposed ‘TL sequences’ (e.g. SFLLRN—, for PAR1 or SLIGRL— for PAR2) can, like proteinase activation, also drive signalling via Gq, Gi and G12/13, without requiring receptor cleavage. Recent data show, however, that distinct proteinase‐revealed ‘non‐canonical’ PAR tethered‐ligand sequences and PAR‐activating agonist and antagonist peptide analogues can induce ‘biased’ PAR signalling, for example, via G12/13‐MAPKinase instead of Gq‐calcium. This overview summarizes implications of this ‘biased’ signalling by PAR agonists and antagonists for the recognized roles the PARs play in inflammatory settings. Linked Articles This article is part of a themed section on Molecular Pharmacology of GPCRs. To view the other articles in this section visit http://dx.doi.org/10.1111/bph.2014.171.issue‐5
doi_str_mv	10.1111/bph.12544
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PAR activation involves the proteolytic exposure of its N‐terminal receptor sequence that folds back to function as a ‘tethered’ receptor‐activating ligand (TL). A key N‐terminal arginine in each of PARs 1 to 4 has been singled out as a target for cleavage by thrombin (PARs 1, 3 and 4), trypsin (PARs 2 and 4) or other proteases to unmask the TL that activates signalling via Gq, Gi or G12/13. Similarly, synthetic receptor‐activating peptides, corresponding to the exposed ‘TL sequences’ (e.g. SFLLRN—, for PAR1 or SLIGRL— for PAR2) can, like proteinase activation, also drive signalling via Gq, Gi and G12/13, without requiring receptor cleavage. Recent data show, however, that distinct proteinase‐revealed ‘non‐canonical’ PAR tethered‐ligand sequences and PAR‐activating agonist and antagonist peptide analogues can induce ‘biased’ PAR signalling, for example, via G12/13‐MAPKinase instead of Gq‐calcium. This overview summarizes implications of this ‘biased’ signalling by PAR agonists and antagonists for the recognized roles the PARs play in inflammatory settings. Linked Articles This article is part of a themed section on Molecular Pharmacology of GPCRs. 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PAR activation involves the proteolytic exposure of its N‐terminal receptor sequence that folds back to function as a ‘tethered’ receptor‐activating ligand (TL). A key N‐terminal arginine in each of PARs 1 to 4 has been singled out as a target for cleavage by thrombin (PARs 1, 3 and 4), trypsin (PARs 2 and 4) or other proteases to unmask the TL that activates signalling via Gq, Gi or G12/13. Similarly, synthetic receptor‐activating peptides, corresponding to the exposed ‘TL sequences’ (e.g. SFLLRN—, for PAR1 or SLIGRL— for PAR2) can, like proteinase activation, also drive signalling via Gq, Gi and G12/13, without requiring receptor cleavage. Recent data show, however, that distinct proteinase‐revealed ‘non‐canonical’ PAR tethered‐ligand sequences and PAR‐activating agonist and antagonist peptide analogues can induce ‘biased’ PAR signalling, for example, via G12/13‐MAPKinase instead of Gq‐calcium. This overview summarizes implications of this ‘biased’ signalling by PAR agonists and antagonists for the recognized roles the PARs play in inflammatory settings. Linked Articles This article is part of a themed section on Molecular Pharmacology of GPCRs. 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subjects	activated protein‐C Animals biased signalling GPCR Humans Inflammation - drug therapy Ligands protease proteinase‐activated receptor Receptors, Proteinase-Activated - antagonists & inhibitors Receptors, Proteinase-Activated - metabolism Signal Transduction Themed Section: Molecular Pharmacology of Gpcrs thrombin
title	Biased signalling and proteinase‐activated receptors (PARs): targeting inflammatory disease
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